CN104506987A - Smart earphone control method and smart earphone - Google Patents

Abstract

The invention discloses a smart earphone control method and a smart earphone. The smart earphone comprises a processing module, a first detection sensor, a second detection sensor, a first telephone receiver and a second telephone receiver, wherein the first detection sensor, the second detection sensor, the first telephone receiver and the second telephone receiver are electrically connected with the processing module respectively; the first detection sensor is arranged on the first telephone receiver; the second detection sensor is arranged on the second telephone receiver; the first detection sensor is used for transmitting an acquired first detection signal to the processing module; the second detection sensor is used for transmitting an acquired second detection signal to the processing module; and the processing module is used for controlling the first telephone receiver and the second telephone receiver to work under the condition that the first detection signal satisfies a first preset condition and that the second detection signal satisfies a second preset condition. Through the technical scheme provided by the invention, the problem of inaccurate smart control in a current smart earphone is solved.

Description

A kind of intelligent earphone control method and a kind of intelligent earphone

Technical field

The present invention relates to intelligent-induction control technology field, particularly relate to a kind of intelligent earphone control method and a kind of intelligent earphone.

Background technology

The wireless technology such as bluetooth and WIFI plays more and more important role at audio area, for intelligent earphone, uses the wireless module such as bluetooth or WIFI that people can be allowed can to exempt impeding of irritating electric wire, converses in free comfortable mode, listoning music etc.But the self-contained power supply capacity of intelligent earphone is less, the power consumption of wireless module can affect the service time of mobile phone, there is the worry needing often charging.Therefore, the wireless module in intelligent earphone is needed to carry out power consumption control.

In existing intelligent earphone, the mode usually using electrode capacitance to detect carries out power consumption control.Namely judged the wearing state of earphone by the change of the capacitive detection sensor Detection capacitance amount in intelligent earphone, the wearing state according to intelligent earphone carries out power consumption control.But electrode capacitance detection mode easily causes misoperation, the finger of such as user or arm etc. contact unintentionally or close to earphone time, the change of the capacitance of capacitive detection sensor can be caused, cause the misoperation of certain probability, cause the consumption of the energy content of battery.

From the above, there is the not accurate enough problem of Based Intelligent Control in existing intelligent earphone.

Summary of the invention

The invention provides a kind of intelligent earphone control method and a kind of intelligent earphone.Technical scheme provided by the invention can solve existing intelligent earphone and there is the not accurate enough problem of Based Intelligent Control.

The invention discloses a kind of intelligent earphone, this intelligent earphone comprises: processing module, the first detecting sensor be electrically connected with described processing module respectively, the second detecting sensor, the first receiver and the second receiver; Described first detecting sensor is arranged on described first receiver; Described second detecting sensor is arranged on the second receiver; The first detection signal collected is sent to processing module by described first detecting sensor, and the second detection signal collected is sent to processing module by described second detecting sensor;

Described processing module is used for meeting first pre-conditioned at described first detection signal, and the second detection signal meet second pre-conditioned when, control described first receiver and the second receiver work.

Optionally, described first detecting sensor comprises: capacitive detection sensor and multiple induction electrode, and described multiple induction electrode is electrically connected with described capacitive detection sensor; Described second detecting sensor comprises: surround lighting detecting sensor; Further,

Described multiple induction electrode is evenly distributed on described first receiver near the side of people's ear; Described surround lighting detecting sensor is arranged on described second receiver near the side of people's ear.

Optionally, described processing module is used for meeting first pre-conditioned at described first detection signal, and the second detection signal meet second pre-conditioned when, control described first receiver and the second receiver work comprises:

The initial capacitance value of the induction electrode collected during initialization is sent to processing module by described capacitive detection sensor; The original light value collected during initialization is sent to processing module by described surround lighting detecting sensor;

Described processing module, changing value for capacitance and described respective initial capacitance value that described multiple induction electrode detected in described capacitive detection sensor is all greater than predetermined capacitive threshold value, and when the changing value of the values of light that described surround lighting detecting sensor detects and original light value is greater than default light threshold value, control described first receiver and the second receiver work.

Optionally, when intelligent earphone plays music;

Described processing module also for meeting first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control play the switching of the song of music.

Optionally, when intelligent earphone receives calls;

Described processing module also for meeting first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control phone and continue to connect.

Optionally, described processing module also for, do not meet first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when, control described first receiver and the second receiver quits work.

The invention also discloses a kind of intelligent earphone control method, comprise for the intelligent earphone controlled: processing module, the first detecting sensor be electrically connected with described processing module respectively, the second detecting sensor, the first receiver and the second receiver; Described first detecting sensor is arranged on described first receiver; Described second detecting sensor is arranged on the second receiver; The method comprises:

Receive the first detection signal that the first detecting sensor sends;

Receive the second detection signal that the second detecting sensor sends;

Meet first pre-conditioned at described first detection signal, and described second detection signal meet second pre-conditioned when, control the first receiver and the second receiver work.

Optionally, described first detecting sensor comprises: capacitive detection sensor and multiple induction electrode, and described multiple induction electrode is electrically connected with described capacitive detection sensor; Described second detecting sensor comprises: surround lighting detecting sensor; Further, described multiple induction electrode is evenly distributed on described first receiver near the side of people's ear; Described surround lighting detecting sensor is arranged on described second receiver near the side of people's ear;

Described processing module is used for meeting first pre-conditioned at described first detection signal, and the second detection signal meet second pre-conditioned when, control described first receiver and the second receiver work comprises:

The initial capacitance value of each induction electrode collected during initialization is sent to processing module by described capacitive detection sensor; The original light value collected during initialization is sent to processing module by described surround lighting detecting sensor;

Described processing module, changing value for capacitance and respective initial capacitance value that described multiple induction electrode detected in described capacitive detection sensor is all greater than predetermined capacitive threshold value, and when the changing value of the values of light that described surround lighting detecting sensor detects and original light value is greater than default light threshold value, control described first receiver and the second receiver work.

Optionally, when intelligent earphone plays music, the method comprises further:

Meet first pre-conditioned at the first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control play the switching of the song of music;

Optionally, when intelligent earphone receives calls;

Described processing module also for meeting first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control phone and continue to connect.

Optionally, the method comprises further:

Do not meet first pre-conditioned at the first detection signal, and the second detection signal do not meet second pre-conditioned when, control described first receiver and the second receiver quits work.

In sum, the first detecting sensor is arranged on described first receiver by intelligent earphone provided by the invention; Second detecting sensor is arranged on the second receiver, namely by detecting sensor being separately positioned on different receiver, processing module controls the first receiver and the second receiver work at the first detection signal, the second detection signal simultaneously when meeting pre-conditioned.Improve the accuracy of the Based Intelligent Control of intelligent earphone, and then each module can be reduced in intelligent earphone to the consumption of battery.Easily there is misoperation in the detection mode solving existing unitary electrode capacitance sensor, easily occurs the problem of extra power consumption.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of intelligent earphone in the present invention;

Fig. 2 is the detailed construction schematic diagram of a kind of intelligent earphone in the present invention;

Fig. 3 is the flow chart of a kind of intelligent earphone control method in the present invention;

Fig. 4 is the detail flowchart of a kind of intelligent earphone control method in the present invention;

Fig. 5 is that in the present invention, intelligent earphone is in flow chart when playing music;

Fig. 6 is that in the present invention, intelligent earphone is in flow chart when connecting phone.。

Embodiment

For making the object, technical solutions and advantages of the present invention clearly, do also to describe in detail to embodiment of the present invention below in conjunction with accompanying drawing.

In order to achieve the above object, technical scheme of the present invention is achieved in that

Fig. 1 is the structural representation of a kind of intelligent earphone in the present invention, as shown in Figure 1, this intelligent earphone comprises: processing module 101, the first detecting sensor 104, second detecting sensor 105, first receiver 102 and the second receiver 103 be electrically connected with processing module 101 respectively.Wherein, the first detecting sensor 104 to be arranged on the first receiver 102; Second detecting sensor 105 to be arranged on the second receiver 103.

In the normal use procedure of intelligent earphone provided by the present invention, by detecting the current using state of intelligent earphone, whether be in wearing state, thus realize controlling the operating state of intelligent earphone power consumption module.Be specially: the first detection signal collected is sent to processing module 101 by the first detecting sensor 104, the second detection signal collected is sent to processing module 101 by the second detecting sensor 105; Processing module 101 for meeting first pre-conditioned at the first detection signal, and the second detection signal meet second pre-conditioned when, control the first receiver 102 and the second receiver 103 works.

In the present invention, detecting sensor can be capacitive detection sensor, surround lighting detecting sensor or infrared temperature detecting sensor etc.

Fig. 2 is the detailed construction schematic diagram of a kind of intelligent earphone in the present invention.As shown in Figure 2, in a kind of specific embodiment of the present invention, the first detecting sensor 104 comprises: capacitive detection sensor 204 and multiple induction electrode 206, and multiple induction electrode 206 is electrically connected with capacitive detection sensor 204.Second detecting sensor 105 comprises: surround lighting detecting sensor 205.Further, multiple induction electrode 206 is evenly distributed on the first receiver 202 near the side of people's ear; Surround lighting detecting sensor 205 is arranged on the second receiver 203 near the side of people's ear.In order to detect the wearing state of intelligent earphone more accurately.Preferably, multiple induction electrode 206 can be arranged on the receiver at the first receiver 202 place.Wherein, the quantity of induction electrode 206 can be 3, and equidistant or be angularly distributed on the receiver of intelligent earphone.Shown in Figure 2, this capacitive detection sensor 204 can be arranged on the right side receiver of this intelligent earphone; Surround lighting detecting sensor 205 can be arranged on the left side receiver of this intelligent earphone.

In an embodiment of the present invention, in order to detect the carrying out of the actual wear state of user more accurately.Before intelligent earphone uses, need to carry out initialization process to intelligent earphone.Before specifically can wearing after intelligent earphone start, the first detecting sensor 104 and the second detecting sensor 105 first carry out initialization operation.

In a particular embodiment of the present invention, first capacitive detection sensor 204 and surround lighting detecting sensor 205 complete and carry out initialization, using the reference value that initialization value contrasted as the later stage to the capacitance of surrounding environment and ambient light value.Be specially: the initial capacitance value of each induction electrode 206 collected during initialization is sent to processing module 201 by capacitive detection sensor 204; The original light value collected during initialization is sent to processing module 201 by surround lighting detecting sensor 205.

After initialization is complete, capacitive detection sensor 204 and surround lighting detecting sensor 205 gather the capacitance of surrounding environment and the data of ambient light value simultaneously, judge intelligent earphone wearing state.Namely the first detection signal collected is sent to processing module 201 by capacitive detection sensor 204, and the second detection signal collected is sent to processing module 201 by surround lighting detecting sensor 205.Be specially: the capacitance of the current multiple induction electrodes 206 collected is sent to processing module 201 by capacitive detection sensor 204, and the current environment values of light collected is sent to processing module 201 by surround lighting detecting sensor 205.In the specific embodiment of the present invention, the data collected are sent to processing module 201 by I2C bus by capacitive detection sensor 204, surround lighting detecting sensor 205.Wherein, processing module 201 can be radio transmitting and receiving chip soc.

In capacitive detection sensor 204, processing module 201 detects that the capacitance of multiple induction electrode 206 and the changing value of respective initial capacitance value are all greater than predetermined capacitive threshold value, and when the changing value of the values of light that surround lighting detecting sensor 205 detects and original light value is greater than default light threshold value, control the first receiver 202 and the second receiver 203 works.From the above, for three induction electrodes 206, if the electric capacitance change of two induction electrodes 206 or an electrode only detected, processing module 201 does not take action; If detect, three induction electrodes 206 all change and are greater than predetermined capacitive threshold value, but the light changing value of surround lighting detecting sensor 205 does not reach default light threshold value, and processing module 201 does not take action.

In the above embodiment of the present invention, by arranging capacitive detection sensor 204 and multiple induction electrode 206 on a receiver of earphone, by detecting while multiple induction electrode 206, improve the accuracy to intelligent earphone wearing state, solve the problem easily occurring misoperation that the single induction electrode 206 of existing use carries out existing for wearing state monitoring.And by arranging surround lighting detecting sensor 205 on another receiver of earphone, further reduce because the finger of user or arm etc. cause unintentionally the possibility of intelligent earphone misoperation near detecting sensor.Visible, technical scheme provided in the present invention can improve the accuracy of intelligent earphone to the detection of user's wearing state further, thus reduces the energy ezpenditure of the battery of the intelligent earphone that the misoperation of processing module 201 causes.

In an embodiment of the present invention, when intelligent earphone plays music; Processing module 201 also for meeting first pre-conditioned at the first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control play the switching of the song of music.

In another kind of specific implementation of the present invention, processing module 201 meets first pre-conditioned at the first detection signal, and the second detection signal meet second pre-conditioned when, a upper bent switching command is sent to the music player devices be connected with this intelligent earphone, make this music player devices according to a bent switching command on this, the music controlling to play carries out upper one bent switching.Same, processing module 201 does not meet first pre-conditioned at the first detection signal, and the second detection signal meet second pre-conditioned when, next bent switching command is sent to the music player devices be connected with this intelligent earphone, make this music player devices according to this next bent switching command, control the music play and carry out next and bently to switch.

In specific implementation process of the present invention, under intelligent earphone is in running order, and when being in broadcasting music, in capacitive detection sensor 204, processing module 201 detects that the capacitance of multiple induction electrode 206 and the changing value of initial capacitance value are all greater than predetermined capacitive threshold value, but when the changing value of the values of light that surround lighting detecting sensor 205 detects and original light value is not greater than default light threshold value, the music controlling to play carries out the switching of a upper song.And detect that in capacitive detection sensor 204 changing value of the capacitance and initial capacitance value that there is one or more induction electrode 206 is not greater than predetermined capacitive threshold value, but when the changing value of the values of light that surround lighting detecting sensor 205 detects and original light value is greater than default light threshold value, the music controlling to play carries out the switching of next song.In addition, carrying out upper one bent mode switching or carry out next bent switching can be arranged according to actual conditions, does not do concrete restriction at this.

From the above, when intelligent earphone is in broadcasting music, when the receiver with surround lighting detecting sensor 205 is taken, the music controlling to play carries out next bent switching; When the receiver with capacitive detection sensor 204 is taken, the music controlling to play carries out upper one bent switching.

In a kind of specific embodiment of the present invention, when processing module 201 controls described first receiver 202 and the second receiver 203 receives calls; Processing module 201 also for meeting first pre-conditioned at the first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control phone and continue to connect.Single receiver can be prevented like this to drop the problem of the call hang-ups caused.

In a kind of specific embodiment of the present invention, processing module 201 is also pre-conditioned for not meeting first at the first detection signal, and the second detection signal do not meet second pre-conditioned when, control the first receiver 202 and the second receiver 203 quits work.Namely when playing music, if two receivers are taken simultaneously, then music stops playing.When receiving calls, if two receivers are taken simultaneously, then hang up the telephone.Preferably, control first receiver 202 and the second receiver 203 out-of-work while, processing module 201 enters standby mode, to reduce in intelligent earphone modules to the trumpet of battery.By above-mentioned detection mode and control method, easily there is misoperation probability in the detection existing for capacitive detection sensor 204 of single induction electrode 206 of taking of greatly lowering, and achieves the multiple combination control actions such as music track switching by arranging different detecting sensors respectively on two receivers.

In addition, under intelligent earphone is in standby mode, processing module 201 detect satisfied first pre-conditioned simultaneously meet second pre-conditioned when, enter awakening mode.

The invention also discloses a kind of control method of intelligent earphone, for realizing the control for intelligent earphone.Intelligent earphone disclosed in the present invention comprises: processing module, the first detecting sensor be electrically connected with processing module respectively, the second detecting sensor, the first receiver and the second receiver; First detecting sensor is arranged on the first receiver; Second detecting sensor is arranged on the second receiver; Wherein, Fig. 3 is the flow chart of a kind of intelligent earphone control method in instinct invention, and shown in Figure 3, the method comprises the steps:

Step 301, starts.Be inserted on intelligent terminal by intelligent earphone, or intelligent earphone starts.

Step 302, the first detecting sensor carries out initialization operation.

In step 302, the initialization data collected during initialization is sent to processing module by the first detecting sensor.

Step 303, the second detecting sensor carries out initialization operation.

In step 303, the initialization data collected during initialization is sent to processing module by the second detecting sensor.

Step 304, initialization is complete.In this step, the initialization data collected when processing module receives and preserves the first detecting sensor and the second detecting sensor initialization, using the reference value that initialization data contrasted as the later stage.

Step 305, processing module receives the first detection signal that the first detecting sensor sends;

Step 306, processing module receives the second detection signal that the second detecting sensor sends;

Step 306, it is first pre-conditioned that processing module determines whether that the first detection signal meets, and the second detection signal meets the second pre-conditioned situation; If carry out step 308, if not, carry out step 309.

Within step 306, meet first and pre-conditionedly to refer to, the difference of the initialization data collected when the first detection signal and the first detecting sensor initialization meets predetermined threshold value; Same, meet second and pre-conditionedly to refer to, the difference of the initialization data collected when the second detection signal and the second detecting sensor initialization meets predetermined threshold value.

Step 308, processing module controls the first receiver and the second receiver work.

Step 309, processing module does not carry out any operation.

In a kind of specific embodiment of the present invention, with the first detecting sensor for capacitive detection sensor and multiple induction electrode; Second detecting sensor is surround lighting detecting sensor is example.Fig. 4 is the detail flowchart of a kind of intelligent earphone in the present invention.Shown in Figure 4, the method comprises the steps.

Step 401, starts

Step 402, capacitive detection sensor initialization.

In step 402, the initial capacitance value of induction electrode during capacitive detection sensor collection initialization.

Step 403, the initialization of surround lighting detecting sensor.

In step 403, original light value during surround lighting detecting sensor collection initialization.

Step 404, initialization is complete.

In step 404, the original light value collected when the initial capacitance value of the induction electrode collected when processing module receives and preserves capacitive detection sensor initialization and the initialization of surround lighting detecting sensor.

Step 405, capacitive detection sensor gathers the capacitance of current ambient environmental.

Step 406, surround lighting detecting sensor gathers the values of light of current ambient environmental.

Step 407, judges whether that the changing value of whole induction electrode capacitance and initial capacitance value is all greater than predetermined capacitive threshold value.If met, carry out step 409, if do not met, continue the capacitance detecting current induction electrode.

In an embodiment of the present invention, the quantity of induction electrode is 3, then in step 407, need the changing value of capacitance of 3 induction electrodes to be all greater than default capacitance threshold value, just can be judged as satisfied first pre-conditioned.The advantage of such setting is, by increasing the quantity of induction electrode, and can better to the detection of the wearing state of intelligent earphone.Thus the accuracy of the Based Intelligent Control to intelligent earphone can be realized.

Step 408, judges that the changing value of the values of light that surround lighting detecting sensor detects and original light value is greater than default light threshold value.If met, carry out step 409, if do not met, continue the values of light detecting current environment.

Step 409, processing module judges whether satisfied first pre-conditioned, meets second pre-conditioned simultaneously.

In step 409, meet first and pre-conditionedly refer to that capacitive detection sensor detects that the capacitance of multiple induction electrode and the changing value of initial capacitance value are all greater than predetermined capacitive threshold value.Meet second and pre-conditionedly refer to that the changing value of the values of light that surround lighting detecting sensor detects and original light value is greater than default light threshold value.

If carry out step 411, carry out step 410 if not.

Step 410, processing module is failure to actuate.

Step 411, processing module controls the first receiver and the second receiver work.

Fig. 5 is that in the present invention, intelligent earphone is in flow chart when playing music.Shown in Figure 5, the method comprises the steps.

Step 501, controls the first receiver and the second receiver and plays music, namely when intelligent earphone place play music in operating state.

Step 502, processing module judges whether satisfied first pre-conditioned, and meets second pre-conditioned.If it is carry out step 503, if otherwise carry out step 504.

In step 502, because capacitive detection sensor and surround lighting detecting sensor can real-time data collections, therefore whether processing module can meet first pre-conditioned according to the data received, and/or the second pre-conditioned judgement.

Step 503, controls to play music.

In this step 503, because capacitive detection sensor and surround lighting detecting sensor detect the condition meeting normal work, under therefore intelligent earphone is still in normal operating conditions simultaneously.

Step 504, processing module judges whether satisfied first pre-conditioned, does not meet second pre-conditioned.If it is carry out step 505, if otherwise carry out step 506.

Step 505, controls the song upwards song switching that institute plays music.

Step 506, processing module judges whether satisfied second pre-conditioned, does not meet first pre-conditioned.If it is carry out step 507, if otherwise carry out step 508.

Step 507, controls song that institute plays music to next song switching.

Step 508, controls the first receiver and the second receiver quits work.

In step 508, do not meet first pre-conditioned, and do not meet second pre-conditioned when, processing module controls the first receiver and the second receiver quits work.Make this intelligent earphone enter standby mode, reduce the consumption to the battery of intelligent earphone further.

After step 508, if processing module detect satisfied first pre-conditioned simultaneously meet second pre-conditioned when, enter awakening mode.

Fig. 6 is that in the present invention, intelligent earphone is in flow chart when connecting phone.Shown in Figure 6, the method comprises the steps.

Step 601, controls the first receiver and phone connected by the second receiver, namely when intelligent earphone is in the operating state connecting phone.

Step 602, processing module judges whether satisfied first pre-conditioned, or meets second pre-conditioned.If it is carry out step 603, if otherwise carry out step 604.

In step 602, because capacitive detection sensor and surround lighting detecting sensor can real-time data collections, therefore whether processing module can meet first pre-conditioned according to the data received, and/or the second pre-conditioned judgement.

Step 603, continues to connect phone.

Step 604, controls the first receiver and the second receiver quits work.

Under the state received calls, in step 602, meet first pre-conditioned, do not meet second pre-conditioned when; Or, do not meet first pre-conditioned, meet second pre-conditioned when, control phone and continue to connect.Single receiver can be prevented like this to drop the problem of the call hang-ups caused.

In step 604, do not meet first pre-conditioned, and do not meet second pre-conditioned when, processing module controls the first receiver and the second receiver quits work.Make this intelligent earphone enter standby mode, reduce the consumption to the battery of intelligent earphone further.

After step 604, if processing module detect satisfied first pre-conditioned simultaneously meet second pre-conditioned when, enter awakening mode.

To sum up, the first detecting sensor is arranged on the first receiver by intelligent earphone provided by the invention; Second detecting sensor is arranged on the second receiver.Processing module controls the first receiver and the second receiver work at the first detection signal, the second detection signal simultaneously when meeting pre-conditioned.And by arranging multiple induction electrode, and surround lighting detecting sensor with the use of the accuracy of Based Intelligent Control that improve intelligent earphone, and then each module can be reduced in intelligent earphone to the consumption of battery.Easily there is misoperation in the detection mode solving existing unitary electrode capacitance sensor, easily occurs the problem of extra power consumption.In addition, logical namely by detecting sensor being separately positioned on different receiver, processing module by the detecting sensor on different receiver with the use of, realize the song switching of music, time-out, and standby mode enters the switching of awakening mode.

The foregoing is only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.All any amendments done within the spirit and principles in the present invention, equivalent replacement, improvement etc., be all included in protection scope of the present invention.

Claims (10)

1. an intelligent earphone, is characterized in that, this intelligent earphone comprises: processing module, the first detecting sensor be electrically connected with described processing module respectively, the second detecting sensor, the first receiver and the second receiver;

Described first detecting sensor is arranged on described first receiver; Described second detecting sensor is arranged on the second receiver;

The first detection signal collected is sent to processing module by described first detecting sensor, and the second detection signal collected is sent to processing module by described second detecting sensor;

Described processing module is used for meeting first pre-conditioned at described first detection signal, and the second detection signal meet second pre-conditioned when, control described first receiver and the second receiver work.

2. intelligent earphone according to claim 1, is characterized in that, described first detecting sensor comprises: capacitive detection sensor and multiple induction electrode, and described multiple induction electrode is electrically connected with described capacitive detection sensor; Described second detecting sensor comprises: surround lighting detecting sensor; Further,

Described multiple induction electrode is evenly distributed on described first receiver near the side of people's ear; Described surround lighting detecting sensor is arranged on described second receiver near the side of people's ear.

3. intelligent earphone according to claim 2, is characterized in that,

Described processing module is used for meeting first pre-conditioned at described first detection signal, and the second detection signal meet second pre-conditioned when, control described first receiver and the second receiver work comprises:

The initial capacitance value of each induction electrode collected during initialization is sent to processing module by described capacitive detection sensor; The original light value collected during initialization is sent to processing module by described surround lighting detecting sensor;

Described processing module, changing value for capacitance and respective initial capacitance value that described multiple induction electrode detected in described capacitive detection sensor is all greater than predetermined capacitive threshold value, and when the changing value of the values of light that described surround lighting detecting sensor detects and original light value is greater than default light threshold value, control described first receiver and the second receiver work.

4. intelligent earphone according to claim 1, is characterized in that, when described intelligent earphone plays music,

Described processing module also for meeting first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control play the switching of the song of music.

5. intelligent earphone according to claim 2, is characterized in that, when described intelligent earphone receives calls,

Described processing module also for meeting first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control phone and continue to connect.

6., according to the intelligent earphone in Claims 1 to 5 described in any one, it is characterized in that,

Described processing module also for, do not meet first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when, control described first receiver and the second receiver quits work.

7. an intelligent earphone control method, is characterized in that, comprises for the intelligent earphone controlled: processing module, the first detecting sensor be electrically connected with described processing module respectively, the second detecting sensor, the first receiver and the second receiver; Described first detecting sensor is arranged on described first receiver; Described second detecting sensor is arranged on the second receiver; The method comprises:

Receive the first detection signal that the first detecting sensor sends;

Receive the second detection signal that the second detecting sensor sends;

Meet first pre-conditioned at described first detection signal, and described second detection signal meet second pre-conditioned when, control the first receiver and the second receiver work.

8. method according to claim 7, is characterized in that, described first detecting sensor comprises: capacitive detection sensor and multiple induction electrode, and described multiple induction electrode is electrically connected with described capacitive detection sensor; Described second detecting sensor comprises: surround lighting detecting sensor; Further, described multiple induction electrode is evenly distributed on described first receiver near the side of people's ear; Described surround lighting detecting sensor is arranged on described second receiver near the side of people's ear;

Described processing module is used for meeting first pre-conditioned at described first detection signal, and the second detection signal meet second pre-conditioned when, control described first receiver and the second receiver work comprises:

The initial capacitance value of each induction electrode collected during initialization is sent to processing module by described capacitive detection sensor; The original light value collected during initialization is sent to processing module by described surround lighting detecting sensor;

Described processing module, changing value for capacitance and respective initial capacitance value that described multiple induction electrode detected in described capacitive detection sensor is all greater than predetermined capacitive threshold value, and when the changing value of the values of light that described surround lighting detecting sensor detects and original light value is greater than default light threshold value, control described first receiver and the second receiver work.

9. method according to claim 7, is characterized in that, when intelligent earphone plays music, the method comprises further:

Meet first pre-conditioned at the first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control play the switching of the song of music;

And/or,

When intelligent earphone receives calls;

Described processing module also for meeting first pre-conditioned at described first detection signal, and the second detection signal do not meet second pre-conditioned when; Or the first detection signal does not meet first pre-conditioned, and the second detection signal meet second pre-conditioned when, control phone and continue to connect.

10. according to the method described in claim 7 ~ 9, it is characterized in that, the method comprises further:

Do not meet first pre-conditioned at the first detection signal, and the second detection signal do not meet second pre-conditioned when, control described first receiver and the second receiver quits work.